Contents

Chuck Hull was born on May 12, 1939 in Clifton, Colorado, the son of Lester and Esther Hull. His early life was spent in Clifton and Gateway, Colorado. He graduated from Central High School in Grand Junction, Colorado. Chuck received a BS in engineering physics from the University of Colorado in 1961.[4]

Hull first came up with the idea in 1983 when he was using UV light to harden tabletop coatings.[5] Hull coined the term “stereolithography” in his U.S. Patent 4,575,330,[6] entitled “Apparatus for Production of Three-Dimensional Objects by Stereolithography” issued on March 11, 1986.[7] He defined stereolithography as a method and apparatus for making solid objects by successively “printing” thin layers of the ultraviolet curable material one on top of the other. In Hull’s patent, a concentrated beam of ultraviolet light is focused onto the surface of a vat filled with liquid photopolymer. The light beam, moving under computer control, draws each layer of the object onto the surface of the liquid. Wherever the beam strikes the surface, the photopolymer polymerizes/crosslinks and changes to a solid. An advanced CAD/CAM/CAE software mathematically slices the computer model of the object into a large number of thin layers. The process then builds the object layer by layer starting with the bottom layer, on an elevator that is lowered slightly after solidification of each layer. [8]

In 1986, commercial rapid prototyping was started by Hull when he founded 3D Systems in Valencia, California.[9] Hull realized that his concept was not limited to liquids and therefore gave it the generic name “stereolithography” (3D printing),[10] and filed broad patent claims covering any “material capable of solidification” or “material capable of altering its physical state.”

Hull built up a patent portfolio covering many fundamental aspects of today’s additive manufacturing technologies such as data preparation via triangulated models (STL file format) and slicing, and exposure strategies such as alternating hatch directions. [11]